/*
    YoshimiLV2Plugin

    Copyright 2014, Andrew Deryabin <andrewderyabin@gmail.com>
    Copyright 2016-2021, Will Godfrey & others.

    This file is part of yoshimi, which is free software: you can
    redistribute it and/or modify it under the terms of the GNU General
    Public License as published by the Free Software Foundation, either
    version 2 of the License, or (at your option) any later version.

    yoshimi is distributed in the hope that it will be useful,
    but WITHOUT ANY WARRANTY; without even the implied warranty of
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    GNU General Public License for more details.

    You should have received a copy of the GNU General Public License
    along with yoshimi.  If not, see <http://www.gnu.org/licenses/>.

*/

#include "YoshimiLV2Plugin.h"
#include "Misc/Config.h"
#include "Misc/ConfBuild.h"
#include "Misc/SynthEngine.h"
#include "Interface/InterChange.h"
#include "Interface/Data2Text.h"
#include "Interface/Text2Data.h"
#include "Interface/MidiDecode.h"
#include "MusicIO/MusicClient.h"
#ifdef GUI_FLTK
    #include "MasterUI.h"
#endif


#define YOSHIMI_STATE_URI "http://yoshimi.sourceforge.net/lv2_plugin#state"

#define YOSHIMI_LV2_BUF_SIZE_URI    "http://lv2plug.in/ns/ext/buf-size"
#define YOSHIMI_LV2_BUF_SIZE_PREFIX YOSHIMI_LV2_BUF_SIZE_URI "#"

#define YOSHIMI_LV2_BUF_SIZE__maxBlockLength      YOSHIMI_LV2_BUF_SIZE_PREFIX "maxBlockLength"
#define YOSHIMI_LV2_BUF_SIZE__minBlockLength      YOSHIMI_LV2_BUF_SIZE_PREFIX "minBlockLength"
#define YOSHIMI_LV2_BUF_SIZE__nominalBlockLength      YOSHIMI_LV2_BUF_SIZE_PREFIX "nominalBlockLength"

#define YOSHIMI_LV2_OPTIONS_URI    "http://lv2plug.in/ns/ext/options"
#define YOSHIMI_LV2_OPTIONS_PREFIX YOSHIMI_LV2_OPTIONS_URI "#"

#define YOSHIMI_LV2_OPTIONS__Option          YOSHIMI_LV2_OPTIONS_PREFIX "Option"
#define YOSHIMI_LV2_OPTIONS__options         YOSHIMI_LV2_OPTIONS_PREFIX "options"

#define YOSHIMI_LV2_STATE__StateChanged      "http://lv2plug.in/ns/ext/state#StateChanged"

extern SynthEngine *firstSynth;


typedef enum {
    LV2_OPTIONS_INSTANCE,
    LV2_OPTIONS_RESOURCE,
    LV2_OPTIONS_BLANK,
    LV2_OPTIONS_PORT
} Yoshimi_LV2_Options_Context;


typedef struct _Yoshimi_LV2_Options_Option {
 Yoshimi_LV2_Options_Context context;  /**< Context (type of subject). */
 uint32_t            subject;  /**< Subject. */
 LV2_URID            key;      /**< Key (property). */
 uint32_t            size;     /**< Size of value in bytes. */
 LV2_URID            type;     /**< Type of value (datatype). */
 const void*         value;    /**< Pointer to value (object). */
} Yoshimi_LV2_Options_Option;




LV2_Descriptor yoshimi_lv2_desc =
{
    "http://yoshimi.sourceforge.net/lv2_plugin",
    YoshimiLV2Plugin::instantiate,
    YoshimiLV2Plugin::connect_port,
    YoshimiLV2Plugin::activate,
    YoshimiLV2Plugin::run,
    YoshimiLV2Plugin::deactivate,
    YoshimiLV2Plugin::cleanup,
    YoshimiLV2Plugin::extension_data
};


LV2_Descriptor yoshimi_lv2_multi_desc =
{
    "http://yoshimi.sourceforge.net/lv2_plugin_multi",
    YoshimiLV2Plugin::instantiate,
    YoshimiLV2Plugin::connect_port,
    YoshimiLV2Plugin::activate,
    YoshimiLV2Plugin::run,
    YoshimiLV2Plugin::deactivate,
    YoshimiLV2Plugin::cleanup,
    YoshimiLV2Plugin::extension_data
};


void YoshimiLV2Plugin::process(uint32_t sample_count)
{
    if (sample_count == 0)
    {
        return;
    }

    /*
     * Our implementation of LV2 has a problem with envelopes. In general
     * the bigger the buffer size the shorter the envelope, and whichever
     * is the smallest (host size or Yoshimi size) determines the time.
     *
     * However, Yoshimi is always correct when working standalone.
     */

    int offs = 0;
    uint32_t next_frame = 0;
    uint32_t processed = 0;
    BeatTracker::BeatValues beats(beatTracker->getRawBeatValues());
    uint32_t beatsAt = 0;
    bool bpmProvided = false;
    float *tmpLeft [NUM_MIDI_PARTS + 1];
    float *tmpRight [NUM_MIDI_PARTS + 1];
    struct midi_event intMidiEvent;
    for (uint32_t i = 0; i < NUM_MIDI_PARTS + 1; ++i)
    {
        tmpLeft [i] = lv2Left [i];
        if (tmpLeft [i] == NULL)
            tmpLeft [i] = zynLeft [i];
        tmpRight [i] = lv2Right [i];
        if (tmpRight [i] == NULL)
            tmpRight [i] = zynRight [i];
    }
    LV2_ATOM_SEQUENCE_FOREACH(_midiDataPort, event)
    {
        if (event == NULL)
            continue;

        if (event->body.type == _midi_event_id)
        {
            if (event->body.size > sizeof(intMidiEvent.data))
                continue;

            next_frame = event->time.frames;
            if (next_frame >= sample_count)
                continue;

            uint32_t to_process = next_frame - offs;

            if ((to_process > 0)
               && (processed < sample_count)
               && (to_process <= (sample_count - processed)))
            {
                int mastered = 0;
                offs = next_frame;
                while (to_process - mastered > 0)
                {
                    float bpmInc = (float)(processed + mastered - beatsAt) * beats.bpm / (synth->samplerate_f * 60.f);
                    synth->setBeatValues(beats.songBeat + bpmInc, beats.monotonicBeat + bpmInc, beats.bpm);
                    int mastered_chunk = _synth->MasterAudio(tmpLeft, tmpRight, to_process - mastered);
                    for (uint32_t i = 0; i < NUM_MIDI_PARTS + 1; ++i)
                    {
                        tmpLeft [i] += mastered_chunk;
                        tmpRight [i] += mastered_chunk;
                    }

                    mastered += mastered_chunk;
                }
                processed += to_process;
            }
            //process this midi event
            const uint8_t *msg = (const uint8_t*)(event + 1);
            if (_bFreeWheel != NULL)
                processMidiMessage(msg);
        }
        else if (event->body.type == _atom_blank || event->body.type == _atom_object)
        {
            LV2_Atom_Object *obj = (LV2_Atom_Object *)&event->body;
            if (obj->body.otype != _atom_position)
                continue;

            LV2_Atom *bpb = NULL;
            LV2_Atom *bar = NULL;
            LV2_Atom *barBeat = NULL;
            LV2_Atom *bpm = NULL;
            lv2_atom_object_get(obj,
                                _atom_bpb, &bpb,
                                _atom_bar, &bar,
                                _atom_bar_beat, &barBeat,
                                _atom_bpm, &bpm,
                                NULL);

            if (bpm && bpm->type == _atom_float) {
                beats.bpm = ((LV2_Atom_Float *)bpm)->body;
                bpmProvided = true;
            }

            uint32_t frame = event->time.frames;
            float bpmInc = (float)(frame - processed) * beats.bpm / (synth->samplerate_f * 60.f);

            if (bpb && bpb->type == _atom_float
                && bar && bar->type == _atom_long
                && barBeat && barBeat->type == _atom_float)
            {
                // There is a global beat number in the LV2 time spec, called
                // "beat", but Carla doesn't seem to deliver this correctly, so
                // piece it together from bar and barBeat instead.
                float lv2Bpb = ((LV2_Atom_Float *)bpb)->body;
                float lv2Bar = ((LV2_Atom_Long *)bar)->body;
                float lv2BarBeat = ((LV2_Atom_Float *)barBeat)->body;
                beats.songBeat = lv2Bar * lv2Bpb + lv2BarBeat;
            }
            else
                beats.songBeat += bpmInc;
            beats.monotonicBeat += bpmInc;
            beatsAt = frame;
        }
    }

    if (processed < sample_count)
    {
        uint32_t to_process = sample_count - processed;
        int mastered = 0;
        offs = next_frame;
        while (to_process - mastered > 0)
        {
            float bpmInc = (float)(processed + mastered - beatsAt) * beats.bpm / (synth->samplerate_f * 60.f);
            synth->setBeatValues(beats.songBeat + bpmInc, beats.monotonicBeat + bpmInc, beats.bpm);
            int mastered_chunk = _synth->MasterAudio(tmpLeft, tmpRight, to_process - mastered);
            for (uint32_t i = 0; i < NUM_MIDI_PARTS + 1; ++i)
            {
                tmpLeft [i] += mastered_chunk;
                tmpRight [i] += mastered_chunk;
            }
            mastered += mastered_chunk;
        }
        processed += to_process;

    }

    float bpmInc = (float)(sample_count - beatsAt) * beats.bpm / (synth->samplerate_f * 60.f);
    beats.songBeat += bpmInc;
    beats.monotonicBeat += bpmInc;
    if (!bpmProvided)
        beats.bpm = synth->PbpmFallback;
    beatTracker->setBeatValues(beats);

    LV2_Atom_Sequence *aSeq = static_cast<LV2_Atom_Sequence *>(_notifyDataPortOut);
    size_t neededAtomSize = sizeof(LV2_Atom_Event) + sizeof(LV2_Atom_Object_Body);
    size_t paddedSize = (neededAtomSize + 7U) & (~7U);
    if (synth->getNeedsSaving() && _notifyDataPortOut && aSeq->atom.size >= paddedSize) //notify host about plugin's changes
    {
        synth->setNeedsSaving(false);
        aSeq->atom.type = _atom_type_sequence;
        aSeq->atom.size = sizeof(LV2_Atom_Sequence_Body);
        aSeq->body.unit = 0;
        aSeq->body.pad = 0;
        LV2_Atom_Event *ev = reinterpret_cast<LV2_Atom_Event *>(aSeq + 1);
        ev->time.frames = 0;
        LV2_Atom_Object *aObj = reinterpret_cast<LV2_Atom_Object *>(&ev->body);
        aObj->atom.type = _atom_object;
        aObj->atom.size = sizeof(LV2_Atom_Object_Body);
        aObj->body.id = 0;
        aObj->body.otype =_atom_state_changed;

        aSeq->atom.size += paddedSize;
    }
    else if (aSeq)
    {
        aSeq->atom.size = sizeof(LV2_Atom_Sequence_Body);
    }

}


void YoshimiLV2Plugin::processMidiMessage(const uint8_t * msg)
{
    bool in_place = _bFreeWheel ? ((*_bFreeWheel == 0) ? false : true) : false;
    setMidi(msg[0], msg[1], msg[2], in_place);
}


YoshimiLV2Plugin::YoshimiLV2Plugin(SynthEngine *synth, double sampleRate, const char *bundlePath, const LV2_Feature *const *features, const LV2_Descriptor *desc):
    MusicIO(synth, new SinglethreadedBeatTracker),
    _synth(synth),
    _sampleRate(static_cast<uint32_t>(sampleRate)),
    _bufferSize(0),
    _bundlePath(bundlePath),
    _midiDataPort(NULL),
    _notifyDataPortOut(NULL),
    _midi_event_id(0),
    _bufferPos(0),
    _offsetPos(0),
    _bFreeWheel(NULL),
    _lv2_desc(desc)
{
    _uridMap.handle = NULL;
    _uridMap.map = NULL;
    flatbankprgs.clear();
    const LV2_Feature *f = NULL;
    const Yoshimi_LV2_Options_Option *options = NULL;
    while ((f = *features) != NULL)
    {
        if (strcmp(f->URI, LV2_URID__map) == 0)
        {
            _uridMap = *(static_cast<LV2_URID_Map *>(f->data));
        }
        else if (strcmp(f->URI, YOSHIMI_LV2_OPTIONS__options) == 0)
        {
            options = static_cast<Yoshimi_LV2_Options_Option *>(f->data);
        }
        ++features;
    }

    uint32_t nomBufSize = 0;
    if (_uridMap.map != NULL && options != NULL)
    {
        _midi_event_id = _uridMap.map(_uridMap.handle, LV2_MIDI__MidiEvent);
        _yoshimi_state_id = _uridMap.map(_uridMap.handle, YOSHIMI_STATE_URI);
        _atom_string_id = _uridMap.map(_uridMap.handle, LV2_ATOM__String);
        LV2_URID maxBufSz = _uridMap.map(_uridMap.handle, YOSHIMI_LV2_BUF_SIZE__maxBlockLength);
        LV2_URID minBufSz = _uridMap.map(_uridMap.handle, YOSHIMI_LV2_BUF_SIZE__minBlockLength);
        LV2_URID nomBufSz = _uridMap.map(_uridMap.handle, YOSHIMI_LV2_BUF_SIZE__nominalBlockLength);
        LV2_URID atomInt = _uridMap.map(_uridMap.handle, LV2_ATOM__Int);
        _atom_long = _uridMap.map(_uridMap.handle, LV2_ATOM__Long);
        _atom_float = _uridMap.map(_uridMap.handle, LV2_ATOM__Float);
        _atom_type_chunk = _uridMap.map(_uridMap.handle, LV2_ATOM__Chunk);
        _atom_type_sequence = _uridMap.map(_uridMap.handle, LV2_ATOM__Sequence);
        _atom_state_changed = _uridMap.map(_uridMap.handle, YOSHIMI_LV2_STATE__StateChanged);
        _atom_object = _uridMap.map(_uridMap.handle, LV2_ATOM__Object);
        _atom_blank = _uridMap.map(_uridMap.handle, LV2_ATOM__Blank);
        _atom_event_transfer = _uridMap.map(_uridMap.handle, LV2_ATOM__eventTransfer);
        _atom_position = _uridMap.map(_uridMap.handle, LV2_TIME__Position);
        _atom_bpb = _uridMap.map(_uridMap.handle, LV2_TIME__beatsPerBar);
        _atom_bar = _uridMap.map(_uridMap.handle, LV2_TIME__bar);
        _atom_bar_beat = _uridMap.map(_uridMap.handle, LV2_TIME__barBeat);
        _atom_bpm = _uridMap.map(_uridMap.handle, LV2_TIME__beatsPerMinute);
        while (options->size > 0 && options->value != NULL)
        {
            if (options->context == LV2_OPTIONS_INSTANCE)
            {
                if ((options->key == minBufSz || options->key == maxBufSz) && options->type == atomInt)
                {
                    uint32_t bufSz = *static_cast<const uint32_t *>(options->value);
                    if (_bufferSize < bufSz)
                        _bufferSize = bufSz;
                }
                if (options->key == nomBufSz && options->type == atomInt)
                    nomBufSize = *static_cast<const uint32_t *>(options->value);
            }
            ++options;
        }
    }

    //_synth->getRuntime().Log("Buffer size " + to_string(nomBufSize));
    if (nomBufSize > 0)
        _bufferSize = nomBufSize;
    else if (_bufferSize == 0)
        _bufferSize = MAX_BUFFER_SIZE;

    synth->setBPMAccurate(true);
}


YoshimiLV2Plugin::~YoshimiLV2Plugin()
{
    if (_synth != NULL)
    {
        if (!flatbankprgs.empty())
        {
            getProgram(flatbankprgs.size() + 1);
        }
        _synth->getRuntime().runSynth = false;
        delete _synth;
        _synth = NULL;
    }

    delete beatTracker;
}


bool YoshimiLV2Plugin::init()
{
    if (_uridMap.map == NULL || _sampleRate == 0 || _bufferSize == 0 || _midi_event_id == 0 || _yoshimi_state_id == 0 || _atom_string_id == 0)
        return false;
    if (!prepBuffers())
        return false;

    if (!_synth->Init(_sampleRate, _bufferSize))
    {
        synth->getRuntime().LogError("Can't init synth engine");
	return false;
    }
    if (_synth->getUniqueId() == 0)
    {
        firstSynth = _synth;
        //firstSynth->getRuntime().Log("Started first");
    }

    _synth->getRuntime().showGui = false;

    memset(lv2Left, 0, sizeof(float *) * (NUM_MIDI_PARTS + 1));
    memset(lv2Right, 0, sizeof(float *) * (NUM_MIDI_PARTS + 1));

    _synth->getRuntime().runSynth = true;

    synth->getRuntime().Log("Starting in LV2 plugin mode");
    return true;
}


LV2_Handle	YoshimiLV2Plugin::instantiate (const LV2_Descriptor *desc, double sample_rate, const char *bundle_path, const LV2_Feature *const *features)
{
    std::list<string> dummy;
    LV2PluginType lv2Type;
    if (std::string(desc->URI) == std::string(yoshimi_lv2_multi_desc.URI))
        lv2Type = LV2PluginTypeMulti;
    else
        lv2Type = LV2PluginTypeSingle;
    SynthEngine *synth = new SynthEngine(dummy, lv2Type);
    if (!synth->getRuntime().isRuntimeSetupCompleted())
    {
        delete synth;
        return NULL;
    }
    Fl::lock();

    YoshimiLV2Plugin *inst = new YoshimiLV2Plugin(synth, sample_rate, bundle_path, features, desc);
    if (inst->init())
    {
        /*
        * Perform further global initialisation.
        * For stand-alone the equivalent init happens in main(),
        * after mainCreateNewInstance() returned successfully.
        */
        synth->installBanks();
        synth->loadHistory();
        return static_cast<LV2_Handle>(inst);
    }
    else
    {
        synth->getRuntime().LogError("Failed to create Yoshimi LV2 plugin");
        delete inst;
        delete synth;
    }
    return NULL;
}


void YoshimiLV2Plugin::connect_port(LV2_Handle instance, uint32_t port, void *data_location)
{
    if (port > NUM_MIDI_PARTS + 2)
        return;
     YoshimiLV2Plugin *inst = static_cast<YoshimiLV2Plugin *>(instance);
     if (port == 0)//atom midi event port
     {
         inst->_midiDataPort = static_cast<LV2_Atom_Sequence *>(data_location);
         return;
     }
     else if (port == 1) //freewheel control port
     {
         inst->_bFreeWheel = static_cast<float *>(data_location);
         return;
     }
     else if (port == 36 && std::string(inst->_lv2_desc->URI) == std::string(yoshimi_lv2_multi_desc.URI)) //notify out port
     {
         inst->_notifyDataPortOut = static_cast<LV2_Atom_Sequence *>(data_location);
         return;
     }
     else if (port == 4 && std::string(inst->_lv2_desc->URI) == std::string(yoshimi_lv2_desc.URI)) //notify out port
     {
         inst->_notifyDataPortOut = static_cast<LV2_Atom_Sequence *>(data_location);
         return;
     }

     port -=2;

     if (port == 0) //main outl
         port = NUM_MIDI_PARTS * 2;
     else if (port == 1) //main outr
         port = NUM_MIDI_PARTS * 2 + 1;
     else
         port -= 2;

     int portIndex = static_cast<int>(floorf((float)port/2.0f));
     if (port % 2 == 0) //left channel
         inst->lv2Left[portIndex] = static_cast<float *>(data_location);
     else
         inst->lv2Right[portIndex] = static_cast<float *>(data_location);
}


void YoshimiLV2Plugin::activate(LV2_Handle instance)
{
    YoshimiLV2Plugin *inst = static_cast<YoshimiLV2Plugin *>(instance);
    inst->Start();
}


void YoshimiLV2Plugin::deactivate(LV2_Handle instance)
{
    YoshimiLV2Plugin *inst = static_cast<YoshimiLV2Plugin *>(instance);
    inst->Close();
}


void YoshimiLV2Plugin::run(LV2_Handle instance, uint32_t sample_count)
{
    YoshimiLV2Plugin *inst = static_cast<YoshimiLV2Plugin *>(instance);
    inst->process(sample_count);
}

void YoshimiLV2Plugin::cleanup(LV2_Handle instance)
{
    YoshimiLV2Plugin *inst = static_cast<YoshimiLV2Plugin *>(instance);
    delete inst;
}


/*
LV2_Worker_Interface yoshimi_wrk_iface =
{
    YoshimiLV2Plugin::lv2wrk_work,
    YoshimiLV2Plugin::lv2wrk_response,
    YoshimiLV2Plugin::lv2_wrk_end_run
};
*/

LV2_Programs_Interface yoshimi_prg_iface =
{
    YoshimiLV2Plugin::static_GetProgram,
    YoshimiLV2Plugin::static_SelectProgram,
    YoshimiLV2Plugin::static_SelectProgramNew
};


const void *YoshimiLV2Plugin::extension_data(const char *uri)
{
    static const LV2_State_Interface state_iface = { YoshimiLV2Plugin::static_StateSave, YoshimiLV2Plugin::static_StateRestore };
    if (!strcmp(uri, LV2_STATE__interface))
    {
        return static_cast<const void *>(&state_iface);

    }
    else if (strcmp(uri, LV2_PROGRAMSNEW__Interface) == 0)
    {
        return static_cast<const void *>(&yoshimi_prg_iface);
    }
    else if (strcmp(uri, LV2_PROGRAMS__Interface) == 0)
    {
        return static_cast<const void *>(&yoshimi_prg_iface);
    }

    return NULL;
}


LV2_State_Status YoshimiLV2Plugin::stateSave(LV2_State_Store_Function store, LV2_State_Handle handle, uint32_t flags, const LV2_Feature * const *features)
{
    uint32_t a = flags; flags = a;
    const LV2_Feature * const *feat = features;
    features = feat;
    // suppress warnings - may use later

    char *data = NULL;
    int sz = _synth->getalldata(&data);

    store(handle, _yoshimi_state_id, data, sz, _atom_string_id, LV2_STATE_IS_POD | LV2_STATE_IS_PORTABLE);
    free(data);
    return LV2_STATE_SUCCESS;
}


LV2_State_Status YoshimiLV2Plugin::stateRestore(LV2_State_Retrieve_Function retrieve, LV2_State_Handle handle, uint32_t flags, const LV2_Feature * const *features)
{
    uint32_t a = flags; flags = a;
    const LV2_Feature * const *feat = features;
    features = feat;
    // lines above suppress warnings - may use later

    size_t sz = 0;
    LV2_URID type = 0;
    uint32_t new_flags;

    const char *data = (const char *)retrieve(handle, _yoshimi_state_id, &sz, &type, &new_flags);

    if (sz > 0)
        _synth->putalldata(data, sz);
    return LV2_STATE_SUCCESS;
}


const LV2_Program_Descriptor *YoshimiLV2Plugin::getProgram(uint32_t index)
{
    if (flatbankprgs.empty())
    {
        Bank &bankObj = synth->getBankRef();
        const BankEntryMap &banks = bankObj.getBanks(synth->getRuntime().currentRoot);
        BankEntryMap::const_iterator itB;
        InstrumentEntryMap::const_iterator itI;
        for (itB = banks.begin(); itB != banks.end(); ++itB)
        {
            string bankName = itB->second.dirname;
            if (!bankName.empty())
            {
                for (itI = itB->second.instruments.begin(); itI != itB->second.instruments.end(); ++itI)
                {
                    if (!itI->second.name.empty())
                    {
                        LV2_Program_Descriptor desc;
                        desc.bank = itB->first;
                        desc.program = itI->first;
                        desc.name = strdup((bankName + " -> " + itI->second.name).c_str());
                        flatbankprgs.push_back(desc);
                    }
                }
            }
        }
    }

    if (index >= flatbankprgs.size())
    {
        for (size_t i = 0; i < flatbankprgs.size(); ++i)
        {
            if (flatbankprgs [i].name != NULL)
            {
                free(const_cast<char *>(flatbankprgs [i].name));
            }
        }
        flatbankprgs.clear();
        return NULL;
    }
    return &flatbankprgs [index];
}


void YoshimiLV2Plugin::selectProgramNew(unsigned char channel, uint32_t bank, uint32_t program)
{
    bool isFreeWheel = false;
    if (_bFreeWheel && *_bFreeWheel == 1)
        isFreeWheel = true;
    if (_synth->getRuntime().midi_bank_C != 128)
    {
        synth->mididecode.setMidiBankOrRootDir((short)bank, isFreeWheel);
    }
    synth->mididecode.setMidiProgram(channel, program, isFreeWheel);
}


LV2_State_Status YoshimiLV2Plugin::static_StateSave(LV2_Handle instance, LV2_State_Store_Function store, LV2_State_Handle handle, uint32_t flags, const LV2_Feature * const *features)
{
    return static_cast<YoshimiLV2Plugin *>(instance)->stateSave(store, handle, flags, features);
}


LV2_State_Status YoshimiLV2Plugin::static_StateRestore(LV2_Handle instance, LV2_State_Retrieve_Function retrieve, LV2_State_Handle handle, uint32_t flags, const LV2_Feature * const *features)
{
    return static_cast<YoshimiLV2Plugin *>(instance)->stateRestore(retrieve, handle, flags, features);
}


const LV2_Program_Descriptor *YoshimiLV2Plugin::static_GetProgram(LV2_Handle handle, uint32_t index)
{
    return static_cast<YoshimiLV2Plugin *>(handle)->getProgram(index);
}


void YoshimiLV2Plugin::static_SelectProgramNew(LV2_Handle handle, unsigned char channel, uint32_t bank, uint32_t program)
{
    return static_cast<YoshimiLV2Plugin *>(handle)->selectProgramNew(channel, bank, program);
}


/*
LV2_Worker_Status YoshimiLV2Plugin::lv2wrk_work(LV2_Handle instance, LV2_Worker_Respond_Function respond, LV2_Worker_Respond_Handle handle, uint32_t size, const void *data)
{

}


LV2_Worker_Status YoshimiLV2Plugin::lv2wrk_response(LV2_Handle instance, uint32_t size, const void *body)
{

}


LV2_Worker_Status YoshimiLV2Plugin::lv2_wrk_end_run(LV2_Handle instance)
{

}

*/


YoshimiLV2PluginUI::YoshimiLV2PluginUI(const char *, LV2UI_Write_Function write_function, LV2UI_Controller controller, LV2UI_Widget *widget, const LV2_Feature * const *features)
    :_plugin(NULL),
     _masterUI(NULL),
     _controller(controller),
     _write_function(write_function)
{
    uiHost.plugin_human_id = NULL;
    uiHost.ui_closed = NULL;
    const LV2_Feature *f = NULL;
    externalUI.uiWIdget.run = YoshimiLV2PluginUI::static_Run;
    externalUI.uiWIdget.show = YoshimiLV2PluginUI::static_Show;
    externalUI.uiWIdget.hide = YoshimiLV2PluginUI::static_Hide;
    externalUI.uiInst = this;
    while ((f = *features) != NULL)
    {
        if (strcmp(f->URI, LV2_INSTANCE_ACCESS_URI) == 0)
        {
            _plugin = static_cast<YoshimiLV2Plugin *>(f->data);
        }
        else if (strcmp(f->URI, LV2_EXTERNAL_UI__Host) == 0)
        {
            uiHost.plugin_human_id = strdup(static_cast<LV2_External_UI_Host *>(f->data)->plugin_human_id);
            uiHost.ui_closed = static_cast<LV2_External_UI_Host *>(f->data)->ui_closed;
        }
        ++features;
    }
    if (uiHost.plugin_human_id == NULL)
    {
        uiHost.plugin_human_id = strdup("Yoshimi lv2 plugin");
    }
    *widget = &externalUI;
}

YoshimiLV2PluginUI::~YoshimiLV2PluginUI()
{
    if (uiHost.plugin_human_id != NULL)
    {
        free(const_cast<char *>(uiHost.plugin_human_id));
        uiHost.plugin_human_id = NULL;
    }
    _plugin->_synth->closeGui();
    Fl::check(); // TODO do we need this?
}


bool YoshimiLV2PluginUI::init()
{
    if (_plugin == NULL || uiHost.ui_closed == NULL)
        return false;

    _plugin->_synth->setGuiClosedCallback(YoshimiLV2PluginUI::static_guiClosed, this);

    return true;
}


LV2UI_Handle YoshimiLV2PluginUI::instantiate(const LV2UI_Descriptor *descriptor, const char *plugin_uri, const char *bundle_path, LV2UI_Write_Function write_function, LV2UI_Controller controller, LV2UI_Widget *widget, const LV2_Feature * const *features)
{
    const LV2UI_Descriptor *desc = descriptor;
    descriptor = desc;
    const char *plug = plugin_uri;
    plugin_uri = plug;
    // lines above suppress warnings - may use later

    YoshimiLV2PluginUI *uiinst = new YoshimiLV2PluginUI(bundle_path, write_function, controller, widget, features);
    if (uiinst->init())
    {
        return static_cast<LV2_External_UI_Widget *>(uiinst);
    }
    else
        delete uiinst;
    return NULL;
}


void YoshimiLV2PluginUI::cleanup(LV2UI_Handle ui)
{
    YoshimiLV2PluginUI *uiinst = static_cast<YoshimiLV2PluginUI *>(ui);
    delete uiinst;
}


void YoshimiLV2PluginUI::static_guiClosed(void *arg)
{
    static_cast<YoshimiLV2PluginUI *>(arg)->_masterUI = NULL;
    static_cast<YoshimiLV2PluginUI *>(arg)->_plugin->_synth->closeGui();
}


void YoshimiLV2PluginUI::run()
{
    if (_masterUI != NULL)
    {
        _masterUI->checkBuffer();
        Fl::check();
    }
    else
    {
        if (uiHost.ui_closed != NULL)
            uiHost.ui_closed(_controller);
    }
}


void YoshimiLV2PluginUI::show()
{
    _plugin->_synth->getRuntime().showGui = true;
    bool bInit = false;
    if (_masterUI == NULL)
        bInit = true;
    _masterUI = _plugin->_synth->getGuiMaster();
    if (_masterUI == NULL)
    {
        _plugin->_synth->getRuntime().Log("Failed to instantiate gui");
        return;
    }
    if (bInit)
        _masterUI->Init(uiHost.plugin_human_id);
}


void YoshimiLV2PluginUI::hide()
{
    if (_masterUI)
        _masterUI->masterwindow->hide();
}


void YoshimiLV2PluginUI::static_Run(_LV2_External_UI_Widget *_this_)
{
    reinterpret_cast<_externalUI *>(_this_)->uiInst->run();

}


void YoshimiLV2PluginUI::static_Show(_LV2_External_UI_Widget *_this_)
{
    reinterpret_cast<_externalUI *>(_this_)->uiInst->show();
}


void YoshimiLV2PluginUI::static_Hide(_LV2_External_UI_Widget *_this_)
{
    reinterpret_cast<_externalUI *>(_this_)->uiInst->hide();

}



extern "C" const LV2_Descriptor *lv2_descriptor(uint32_t index)
{
    switch (index)
    {
    case 0:
        return &yoshimi_lv2_desc;
    case 1:
        return &yoshimi_lv2_multi_desc;
    default:
        break;
    }
    return NULL;
}


LV2UI_Descriptor yoshimi_lv2ui_desc =
{
    "http://yoshimi.sourceforge.net/lv2_plugin#ExternalUI",
    YoshimiLV2PluginUI::instantiate,
    YoshimiLV2PluginUI::cleanup,
    NULL,
    NULL
};


extern "C" const LV2UI_Descriptor* lv2ui_descriptor(uint32_t index)
{
    switch (index)
    {
    case 0:
        return &yoshimi_lv2ui_desc;
    default:
        break;
    }
    return NULL;

}


int mainCreateNewInstance(unsigned int) //stub
{
    return 0;
}


void mainRegisterAudioPort(SynthEngine *, int ) //stub
{

}
